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In the OS X pthreads implementation (http://www.opensource.apple.com/source/Libc/Libc-825.26/pthreads/thread_setup.c?txt) they provide a fake return address on the thread stack (line 140):

    ts->rip = (uintptr_t) routine;

    ** We need to simulate a 16-byte aligned stack frame as if we had
    ** executed a call instruction. The stack should already be aligned
    ** before it comes to us and we don't need to push any arguments,
    ** so we shouldn't need to change it.

    ts->rdi = (uintptr_t) thread;   /* argument to function */
    *--sp = 0;            /* fake return address */
    ts->rsp = (uintptr_t) sp;   /* set stack pointer */

I do not understand how this will not crash with an illegal instruction/segfault when the function that the thread is executing calls 'ret' and pops that return address from the stack. Can anyone explain how this is prevented/handled?

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1 Answer 1

up vote 3 down vote accepted

Without looking at the rest of the code, I can only venture a guess. My intuition says, the called thread procedure (the user-supplied start_routine parameter) should never return to the calling function.

Think about it: if the new thread did return, you would have two threads running over the same original code path. I imagine that the thread function that is actually called is a wrapper that calls the user-supplied start_routine. When the start_routine returns, the wrapper then calls pthread_exit.

(main thread)
thread_setup  (sets up stack), and spawns new thread
     v                                     |
return to main thread                      |
                    user-supplied    start_routine
                                           |   (returns)
                                wrapper_function  calls

Again, this is just a guess, but the whole point is, the new thread should never return to the code that called pthread_create. The purpose of the wrapper then would be to ensure that pthread_exit gets called.

I would have to see what they are passing as routine to thread_setup.

My feelings are confirmed by the fact that you don't have to call pthread_exit.

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Indeed, the "routine" passed to _pthread_setup seems always to be _pthread_body (search for that identifier in this file: opensource.apple.com/source/Libc/Libc-825.26/pthreads/pthread.c ) which does exactly what you speculate the wrapper would do. The actual thread worker (the function pointer originally passed to pthread_create) is stashed inside the pthread_t object. I don't know why thread_setup is in its own file, but this kind of low-level code is often a big mess. –  Zack May 3 '13 at 1:46
And come to think of it, the point of the "fake return address" in thread_setup is probably to ensure that if the wrapper ever does return (which would be a bug in the C library, but still) you get a predictable crash instead of jumping to some random address that might actually have code at it. –  Zack May 3 '13 at 1:49
@Zack Thanks for confirming all of that! I didn't really have the time to look into it when I answered, so I appreciate you following up. –  Jonathon Reinhart May 3 '13 at 5:21
This all makes sense. The actual user function is called as an argument to _pthread_exit, which then kills its own thread with thread_terminate, never returning to the user. –  Sam Manzer May 3 '13 at 17:43

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